EP1799392A1 - Configuration de laser - Google Patents

Configuration de laser

Info

Publication number
EP1799392A1
EP1799392A1 EP05794084A EP05794084A EP1799392A1 EP 1799392 A1 EP1799392 A1 EP 1799392A1 EP 05794084 A EP05794084 A EP 05794084A EP 05794084 A EP05794084 A EP 05794084A EP 1799392 A1 EP1799392 A1 EP 1799392A1
Authority
EP
European Patent Office
Prior art keywords
laser
light sources
arrangement according
laser light
workpiece
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Granted
Application number
EP05794084A
Other languages
German (de)
English (en)
Other versions
EP1799392B1 (fr
Inventor
Vitalij Lissotschenko
Aleksei Mikhailov
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Focuslight Germany GmbH
Original Assignee
Hentze Lissotschenko Patentverwaltungs GmbH and Co KG
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Priority claimed from PCT/EP2004/013494 external-priority patent/WO2006037370A1/fr
Application filed by Hentze Lissotschenko Patentverwaltungs GmbH and Co KG filed Critical Hentze Lissotschenko Patentverwaltungs GmbH and Co KG
Priority to EP05794084A priority Critical patent/EP1799392B1/fr
Priority claimed from PCT/EP2005/010588 external-priority patent/WO2006037566A1/fr
Publication of EP1799392A1 publication Critical patent/EP1799392A1/fr
Application granted granted Critical
Publication of EP1799392B1 publication Critical patent/EP1799392B1/fr
Not-in-force legal-status Critical Current
Anticipated expiration legal-status Critical

Links

Definitions

  • the present invention relates to a laser arrangement according to the preamble of claim 1.
  • the plurality of laser light sources mentioned in the aforementioned arrangement can be realized not only by a plurality of lasers, but also by the laser radiation emitted by a laser beam, which is split into a plurality of partial beams. For example, these partial beams can then be coupled into different optical fibers.
  • the laser beam forms a working area auTclenni- workpiece, which is defined by a specific energy input. It is also known to arrange a number of laser light sources in a row and to align their laser beams together on a workpiece. In this case, when the laser beams are aligned in parallel, a working area is formed by the intersecting laser beams.
  • edge regions of the linear working region which have a lower energy density result, since they are only achieved by one laser light source and inner regions of higher energy density, since they reach from two or more laser light sources become.
  • a work area is required, for example, which has a minimum and predetermined energy radiation and a predetermined spatial extent. Accordingly, many must Laser light sources are arranged in the manner described above to meet the requirements for energy radiation and expansion, whereas the edge regions, which can be achieved for example only by a laser light source, remain unused, since the energy input is too low here.
  • Another disadvantage of known arrangements is the fact that the light from a plurality of laser light sources is not or only with great effort in the linear working area can be introduced.
  • some or all of the laser light sources are arranged on a circular arc.
  • a circular arc As a result, with a correspondingly large radius of the circular arc, it is possible to provide a great many, in particular any number of laser light lines, the light of which is brought together in the working plane, for example in a linear working area.
  • the laser radiation emanating from the laser light sources arranged on the circular arc is focused at least partially into a focal region, which is in particular substantially punctiform.
  • the circular arc is arranged around a center, which essentially corresponds to the, in particular punctiform, focal region.
  • At least one reflection element is provided, which is adapted to deflect a portion of the laser radiation in the work area. Accordingly, the otherwise unusable laser radiation can be diverted into the work area, whereby the efficiency is increased. Also, a more homogeneous energy distribution over the work area can be achieved by the deflection, as targeted areas with lower energy density can be additionally illuminated.
  • a plurality of laser light sources are arranged in at least one row, wherein the laser light sources form a linear working area, wherein the at least one reflection element is adapted to the emanating from the outer laser light sources laser radiation in the Reflect workspace.
  • the at least one reflection element is designed to be flat, wherein the row of laser light sources is aligned approximately orthogonal to the at least one reflection element.
  • Laser light sources can achieve particularly good results.
  • such a laser arrangement is suitable for use in industrial production.
  • a first reflection element and a second reflection element are provided, wherein the reflection elements extend approximately between the laser light sources and the workpiece. This arrangement is particularly suitable for industrial use.
  • a lens device to be arranged between the laser light sources and the workpiece for collimation or focusing of the laser beams emitted by the laser light sources with respect to one direction, in particular with respect to a direction perpendicular to the mean propagation direction of the laser beams , suitable is. Because the laser beams are collimated or focused only in a transverse direction, but not in the transverse direction perpendicular thereto, it is possible to produce preferably highly elliptical and largely overlapping laser light cones which complement each other to the desired linear working area.
  • the lens device is at least one cylindrical lens. It can also be provided that the lens device is a plurality of cylindrical lenses which preferably enclose an angle not equal to 0 ° and not equal to 180 °, in particular an angle between 140 ° and 160 °. Also can be advantageously provided for introducing a higher light output in the work area, that the laser light sources are arranged in parallel rows.
  • the distance between the lens device and the workpiece is about 50 cm. This makes it possible to design working areas with a particularly homogeneous energy density.
  • the laser light source is a semiconductor laser or an optical fiber, which is preferably fed by at least one semiconductor laser.
  • the laser radiation hits the cylindrical lens or the plurality of cylindrical lenses behind the focus area into which the laser radiation emanating from the laser light sources arranged on the circular arc is focused.
  • a further lens in particular a further cylindrical lens is provided.
  • an imaging optics for imaging the laser radiation is provided on the workpiece in the propagation direction of the laser radiation behind the reflection elements.
  • Fig. 1 is a schematic representation of a laser arrangement according to the prior art
  • FIG. 2 shows a schematic representation of a laser arrangement according to the invention in a plan view
  • FIG. 3 shows a schematic representation of a laser arrangement according to the invention in a lateral view
  • Fig. 4 is a schematic representation of another
  • FIG. 5 shows a schematic representation of an embodiment according to FIG. 4 of a laser arrangement according to the invention in a lateral view
  • FIG. 6 shows a perspective view of an embodiment according to FIG. 4 with a reflection element
  • Figure 7 is a purely schematic and not real relationships directed representation illustrating the formation of the linear working area by overlapping laser light incident cone after passing through the lens device.
  • 8 shows a perspective view of a further embodiment of a laser arrangement according to the invention.
  • FIG. 9 shows a schematic side view of a further embodiment of a laser arrangement according to the invention.
  • Fig. 1 shows a laser arrangement according to the prior art.
  • a plurality of laser light sources 1 are each arranged in a row and their laser light exit is aligned in the direction of a workpiece 6.
  • a linear work area 5 is generated on the workpiece, which is characterized by different energy densities, but in any case by low energy densities in the edge regions because of the respective overlaps of the indicated laser beam cone.
  • the laser arrangement according to the invention is initially characterized in that two flat reflection elements 2, 2a, in particular flat mirrors, are provided at least in sections laterally of the laser light sources 1 and the workpiece 2.
  • the reflection elements 2, 2 a are suitable for reflecting part of the laser light into a predeterminable work area 5.
  • the laser light of the laser light sources 1 provided at the edge can likewise be utilized for the predetermined working area 5.
  • Another advantageous effect of the arrangement of reflection elements 2, 2a in the proposed manner is that the homogeneity of the energy distribution over the working area 5 can be improved.
  • areas of high energy radiation result in addition to areas of low or lowest energy radiation.
  • the degree of energy irradiation depends inter alia on how many laser light sources 1 illuminate a specific section of the working area 5.
  • By appropriate reflection or deflection of the laser beams targeted areas with low or lowest laser light irradiation can be additionally illuminated, so that a largely homogeneous energy distribution along the work area can be ensured.
  • At least one cylindrical lens 3 is arranged between the laser light sources 1 and the workpiece 6 or working area 5.
  • the cylindrical lens 3 also contributes to a homogenization of the energy distribution along the working area 5 and to the advantageous shaping of the working area 5. Starting from a substantially circular shape of the respective impinging laser light cone, without the cylindrical lens 3 a sequence of intersecting circular laser light cones forming the working area 5 results.
  • a plate 4 permeable to the laser light is advantageously provided between the reflection elements 2, 2a and the workpiece 6.
  • the laser light sources are 1 ⁇ m optical fibers, which are correspondingly exposed to a suitable laser.
  • it can also be provided to attach the laser directly to the indicated Einstrahlpositionen (laser light source 1), however, this results in unnecessary restrictions on the distance of the laser light sources 1 to each other, which should preferably be 1 cm.
  • optical fibers in approximately circular laser beams in contrast to directly emerging from the laser laser beams, for example, have a predominantly square cross-section.
  • a laser beam with a circular cross section or with an elliptical cross section (after the cylindrical lens 3) produces much softer transition regions in terms of energy distribution than it for example, with laser beams having a rectangular cross section (after the cylindrical lens 3) would be the case.
  • laser light sources 1 are used with a laser light power of about 100 W. It is envisaged that about 100 laser light sources 1 are combined in a laser light arrangement, so that a light output in the working area 5 of about 10 kW results. However, light outputs of 1 megawatt, which can preferably be achieved by individual laser light sources 1 of approximately 400 watts, and an arrangement of the laser light sources 1 or the cylindrical lens 3 as shown schematically in FIG. 6, are conceivable.
  • the cylindrical lens 3 is arranged like a dome above the workpiece 6 or the working area 5.
  • the arrangement or alignment of the laser light sources 1 and the cylindrical lens 3 is in each case selected so that the laser beams form the linear working area 5, which is optimized or homogenized in the manner proposed above , Alternatively, an arrangement of a plurality of cylindrical lenses 3, 3a, 3b may be provided.
  • a laser arrangement according to the prior art can be significantly improved with the measures proposed here, both with regard to the homogenization of the energy distribution in the working area 5, and in the efficiency of energy irradiation in the working area 5.
  • the number of laser light sources can be 1 at the same light power in the work area reduce, since the laser light is exploited much more effectively, by also the laser light of the outer laser light sources 1 in the work area is diverted.
  • a significantly higher light output can also be introduced into the working area, whereby such high powers of 1 megawatt in the working area 5 are possible in a rational manner.
  • Such a laser arrangement offers high reliability. In the event that a laser light source should fail, this results in only a power loss of 0.01%, whereas the failure of a laser light source in an arrangement according to the prior art already represents 1% power loss.
  • a laser arrangement proposed here can be provided, for example, for drying a workpiece web or also for melting workpiece surfaces. Accordingly, it can also be provided that the workpiece 6 and the laser arrangement are each moved relative to each other.
  • FIG. 8 shows an arrangement according to the invention, in which laser diode bars 7 are provided as laser light sources. These are arranged to move in the direction of their fast axis (y in Fig. 8), i. in the direction perpendicular to the layer structure of the semiconductor laser, spaced apart from each other.
  • the slow-axis direction (x in FIG. 8) of the laser radiation is collimated by the cylindrical lens 3, whereas the fast-axis direction continues to diverge on propagation of the laser radiation in the z-direction (see FIG. 8) line-shaped working area 5 of each laser light source 7 is illuminated in the y-direction relatively extensive area 8.
  • 9 shows an embodiment of an arrangement according to the invention, in which laser light sources 9 designed as fiber ends or laser diode bars or the like are arranged on a circular arc 10. Each of the laser light sources 9 are focusing means
  • a cylindrical lens 13 is arranged in the middle propagation direction z (see FIG. 9) of the laser radiation, which largely collimates the laser radiation emanating from the individual laser light sources 9 with respect to the Y direction (see FIG. 9), so that the laser radiation can propagate in the z-direction between the two reflection elements 2, 2a.
  • the cylinder axis of the cylindrical lens 13 extends in the x direction.
  • the cylinder axis of the cylindrical lens 3 extends in the y direction.
  • the workpiece or the linear working area 5 is further away from the reflection elements 2, 2a. This is achieved by inserting an imaging optics 14.
  • This imaging optics 14 can consist of cylindrical lenses 15, 16 and produce a 1: 1 or 1: 1 image of the laser radiation in the working plane.

Landscapes

  • Laser Beam Processing (AREA)

Abstract

Configuration de laser pour l'usinage d'une pièce (6), qui comporte une pluralité de sources (1) de lumière laser destinées à envoyer un rayonnement laser dans une zone d'usinage prédéfinie, un certain nombre ou la totalité des sources (9) de lumière laser étant disposées en arc de cercle (10).
EP05794084A 2004-10-06 2005-09-30 Configuration de laser Not-in-force EP1799392B1 (fr)

Priority Applications (1)

Application Number Priority Date Filing Date Title
EP05794084A EP1799392B1 (fr) 2004-10-06 2005-09-30 Configuration de laser

Applications Claiming Priority (5)

Application Number Priority Date Filing Date Title
DE102004048917 2004-10-06
PCT/EP2004/013494 WO2006037370A1 (fr) 2004-10-06 2004-11-27 Systeme laser
DE102005005453 2005-02-04
PCT/EP2005/010588 WO2006037566A1 (fr) 2004-10-06 2005-09-30 Configuration de laser
EP05794084A EP1799392B1 (fr) 2004-10-06 2005-09-30 Configuration de laser

Publications (2)

Publication Number Publication Date
EP1799392A1 true EP1799392A1 (fr) 2007-06-27
EP1799392B1 EP1799392B1 (fr) 2009-08-05

Family

ID=38057632

Family Applications (1)

Application Number Title Priority Date Filing Date
EP05794084A Not-in-force EP1799392B1 (fr) 2004-10-06 2005-09-30 Configuration de laser

Country Status (1)

Country Link
EP (1) EP1799392B1 (fr)

Non-Patent Citations (1)

* Cited by examiner, † Cited by third party
Title
See references of WO2006037566A1 *

Also Published As

Publication number Publication date
EP1799392B1 (fr) 2009-08-05

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